Equilibrium response of thermohaline circulation to large changes in atmospheric CO2 concentration

[1]  CLIMATE AND THE OCEAN CIRCULATION’ 1. THE ATMOSPHERIC CIRCULATION AND THE HYDROLOGY OF THE EARTH’S SURFACE , 2004 .

[2]  S. John,et al.  Comparison of oxygen isotope records from the GISP 2 and GRIP Greenland ice cores , 2002 .

[3]  Anthony J. Broccoli,et al.  A coupled model study of the Last Glacial Maximum: Was part of the North Atlantic relatively warm? , 2001 .

[4]  Alex Hall,et al.  An abrupt climate event in a coupled ocean ± atmosphere simulation without external forcing , 2022 .

[5]  B. Stephens,et al.  The influence of Antarctic sea ice on glacial–interglacial CO 2 variations , 2000, Nature.

[6]  S. Manabe,et al.  Study of abrupt climate change by a coupled ocean–atmosphere model , 2000 .

[7]  A. Weaver,et al.  On the sensitivity of global warming experiments to the parametrisation of sub-grid scale ocean mixing , 1999 .

[8]  R. Stouffer,et al.  The influence of transient surface fluxes on North Atlantic overturning in a coupled GCM Climate Change Experiment , 1999 .

[9]  S. Manabe,et al.  Response of a Coupled Ocean–Atmosphere Model to Increasing Atmospheric Carbon Dioxide: Sensitivity to the Rate of Increase , 1999 .

[10]  Syukuro Manabe,et al.  Are two modes of thermohaline circulation stable , 1999 .

[11]  S. Manabe,et al.  The rôle of thermohaline circulation in climate , 1999 .

[12]  A. Weaver,et al.  Simulated influence of carbon dioxide, orbital forcing and ice sheets on the climate of the Last Glacial Maximum , 1998, Nature.

[13]  Stefan Rahmstorf,et al.  Simulation of modern and glacial climates with a coupled global model of intermediate complexity , 1998, Nature.

[14]  R. Voss,et al.  The stability of the North Atlantic thermohaline circulation in a coupled ocean-atmosphere general circulation model , 1997 .

[15]  D. Schrag,et al.  Pore Fluid Constraints on the Temperature and Oxygen Isotopic Composition of the Glacial Ocean , 1996, Science.

[16]  E. Yu,et al.  Similar rates of modern and last-glacial ocean thermohaline circulation inferred from radiochemical data , 1996, Nature.

[17]  J. Houghton,et al.  Climate change 1995: the science of climate change. , 1996 .

[18]  W. Peltier,et al.  Ice Age Paleotopography , 1994, Science.

[19]  Syukuro Manabe,et al.  Multiple-Century Response of a Coupled Ocean-Atmosphere Model to an Increase of Atmospheric Carbon Dioxide , 1994 .

[20]  J. Jouzel,et al.  Comparison of oxygen isotope records from the GISP2 and GRIP Greenland ice cores , 1993, Nature.

[21]  Syukuro Manabe,et al.  Century-scale effects of increased atmospheric C02 on the ocean–atmosphere system , 1993, Nature.

[22]  S. Savin,et al.  Miocene deepwater oceanography , 1989 .

[23]  S. Manabe,et al.  Interhemispheric asymmetry in climate response to a gradual increase of atmospheric CO2 , 1989, Nature.

[24]  S. Manabe,et al.  A comparison of climate model sensitivity with data from the last glacial maximum. , 1985 .

[25]  S. Manabe,et al.  CO2‐induced change in a coupled ocean‐atmosphere model and its paleoclimatic implications , 1985 .

[26]  W. Broecker,et al.  Does the ocean–atmosphere system have more than one stable mode of operation? , 1985, Nature.

[27]  S. Manabe,et al.  Influence of Oceanic Heat Transport Upon the Sensitivity of a Model Climate , 1984 .

[28]  W. Stern,et al.  A Description of the GFDL Global Spectral Model , 1982 .

[29]  H. Oeschger,et al.  Ice core sample measurements give atmospheric CO2 content during the past 40,000 yr , 1982, Nature.

[30]  S. Savin The History of the Earth's Surface Temperature During the Past 100 Million Years , 1977 .